![]() Killer Application: You’re recording Big Band arrangements, but only play the trumpet. Note it goes below the actual range of the instrument at times. The saxophone in this example was realized with Tone Transfer. It can only do instruments that sound one note at a time, so no pianos or guitars. If you’re looking for a virtual instrument that no one has sampled yet – this can make them. If that isn’t mind-blowing enough, you can train your own model by providing at least 10 minutes of the instrument you want to copy and letting it train for a few hours. Sax samples are notoriously difficult to get to sound good. I’ve used this to get one of the most realistic saxophone sounds available. The real power is with the Plug-ins available for your DAW. What it does: You give it some audio, and it changes the audio into an instrument. Killer Application: I don’t see any practical use for this service. There’s a giant list of problems that I could describe, and maybe they can fix a few issues, but this approach will never be as versatile, creative, flowing, or beautiful as an AI that uses a sample-based approach. That’s gonna require a whole new approach, it is possible. It just seems to layer the instruments on top of each other, just not caring about interactions between the bass and drums and melodies. It also doesn’t display a grasp on overall form of the piece. The music has very little in the sense of melodic understanding. The catalog of pictures is fixed, and it isn’t that big.īoomy is clipping from a low quality picture book. To push the analogy too far, Boomy works by cutting and pasting lots of little pictures together. In terms of data, a 100×100 pixel image is roughly equivalent to 1 second of audio. ![]() It is a number that tells you where on a graph you are, and are usually read at 48,000 samples every second. The sound-equivalent of this is the sample. Most image generating AIs work with pixels as their building blocks. If you run into problems at any step of the way, paste your errors into ChatGPT, and it’ll help you out! Pdf.line(x, BORDER_WIDTH, x, BORDER_WIDTH + grid_rows * GRID_SIZE)Īnd the final PDF output (after the script is run locally) ![]() Pdf.line(BORDER_WIDTH, y, BORDER_WIDTH + grid_columns * GRID_SIZE, y) Grid_height = A4_HEIGHT - 2 * BORDER_WIDTH Do not draw partial squares.Ī4_WIDTH = 297 # Width of A4 paper in mm (landscape)Ī4_HEIGHT = 210 # Height of A4 paper in mm (landscape)īACKGROUND_COLOR = (41, 31, 88) # Dark purple In the remaining space, figure out how many 1cm x 1cm squares would best fill the remaining space, and build a 1cm x 1cm grid with thin white lines. Please write a python script using fpdf that will output a file “my-grid.pdf” which is a landscape a4 pdf file with a background color of dark purple, and has a border of at least 2cm. It does take an extra step, but it figured it out in python!
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